Volume Rate Problem: Find Change When r=6 & 24 Inches

KatieLynn · Mar 31, 2008

Homework Statement

The radius r of a sphere is increasing at a rate of 2 inches per minute. Find the rate of chance of the volume when r=6 and r=24 inches.

Homework Equations

V=(4/3)(pi)(r^3)

The Attempt at a Solution

This is what I did, I would appreciate it if someone could tell me if it is correct.

So the volume of a sphere is V=(4/3)(pi)(r^3)

So the first thing I did was derive the equation and got this...

(dv/dt)=(4/3)(3)(pi)(r^2)(dr/dt)

Simplifying it and plugging in 2 for (dr/dt) i got...

(dv/dt)=(8)(pi)(r^2)

So then I just plugged in the r and got 288pi and 4680pi, I have a feeling I've done this terribly wrong though :(

Pacopag · Mar 31, 2008

I didn't check your numbers, but your method seems fine to me. However, you might want to get a second opinion before you go and write it in stone.

uradnky · Mar 31, 2008

It all looks good to me to. Except for when the radius is 24 I got 4608. Maybe you just had a typo there?

KatieLynn · Mar 31, 2008

yes sorry that was a typo, thanks! :)

Volume Rate Problem: Find Change When r=6 & 24 Inches

Homework Statement

Homework Equations

The Attempt at a Solution

Thread 'Prove that the integral is equal to ##\pi^2/8##'

Similar threads

Hot Threads

Prove that the integral is equal to ##\pi^2/8##

Calculating radius of gyration of plane figure about x-axis

Solve this problem that involves induction

The volume of a "spherical cap" using triple integrals

Finding the modulus and argument of ##\dfrac{a}{(b±ci)^n}##

Recent Insights

Insights Why Entangled Photon-Polarization Qubits Violate Bell’s Inequality

Insights Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect

Insights What Exactly is Dirac’s Delta Function? - Insight

Insights Relativator (Circular Slide-Rule): Simulated with Desmos - Insight

Insights Fixing Things Which Can Go Wrong With Complex Numbers

Insights Fermat's Last Theorem